24:17

Basic Fluid Dynamics: Derivations of Bernoulli's equation, Part 3, The incompressible flows

16:25

Derivations of Bernoulli's equation, Part 2: the derivation based on streamline equations

02:01

Double model test in large waves at Plymouth wave tank

01:49

Palemis model tested in large waves

00:45

Small OctaOWC model tested in the wave tank

00:54

Huge waves splash at the end of the tank

01:02

Edinburgh University FloWave Wave Sprouts: The Triple, Double and Single Sprouts of Waves

02:49

Large wind-generated waves: good for surfing practice

01:33

A nice and slow water flow

01:23

The Giant Causeway in Northern Ireland

00:43

surfing learners

00:49

Mountain motorcycling

02:30:01

2.5-hour nature sound of a flowing water and birds chirpping

00:46

WaveScan vs ODAS buoy: model test in large regular waves

00:36

Waves coming to a narrow small beach

01:34

Enjoying and swimming in large waves

01:24

Large wind-generated waves in the coast of Ireland (4)

25:52

How we can derive Bernoulli's equation, Part 1: the derivation based on direct physics

22:58

The streamlines and pathlines in unsteady flows: why they are so different?

14:13

The streamlines and pathlines in steady flows: why they are same?

24:35

Why we are not using the Lagrangian Approach in fluid dynamics?

31:26

Panel method for potential flows, Part 3: boundary integral equation for 2D flows

26:34

Potential flow theory for incompressible flows, Part 1: principles and equations

22:08

Panel method for potential flows, Part 2: Boundary integral equations in 3D flows

29:57

Panel method for potential flows, Part 1: Green's theorem

22:14

Elementary potential flows, the simple and useful combinations for practical potential flows

23:36

Elementary potential flows, the building stones for potential flow theory, Part 3, dipoles

17:17

Elementary potential flows, the building stones for potential flow theory, Part 2, sources and sinks

16:24

Elementary potential flows, the building stones for potential flow theory. Part 1: uniform flows

27:27

An easy way to derive Bernoulli's equation by using the streamline equations and Euler equations

00:30

Wave sprouts in the Edinburgh 360-deg wave tank: bullseyes of wave generations

22:58

Unsteady potential flows: the different streamlines and pathlines, and why they are so different?

14:13

Steady incompressible flows: the streamlines & pathlines, and why they are coincident?

25:38

Incompressible flows: streamlines and stream functions

15:07

Potential flow theory for incompressible flows, Part 2: a simple example

26:34

Potential flow theory for incompressible flows, Part 1: Principles and Equations

01:28

How to simply make good rainbows in garden

25:54

What is a potential flow?

26:34

Why we need to study potential flows?

21:53

Dimensional analysis- Buckingham Pi Theorem: the detailed advantages

06:08

Interesting artificial rainbow: making rainbows in your garden

28:39

Dimensional analysis, Buckingham Pi Theorem: the principle using an example

18:45

Why we need Dimensional Analysis in fluid dynamics? P2, the difficulties in direct fluid dynamics

18:43

Why we need Dimensional Analysis, Part 1, Design optimisations in fluid dynamics

24:35

Why we do not use Lagrangian approach for fluid motions, especially in 3D viscous flows?

23:18

What are streamline, pathline and streakline for fluid motions

23:18

What are streamline, pathline and streakline for fluid motions? (old version)

21:33

Hagen-Poiseuille flow: a detailed complete solution to the Navier-Stokes equation

29:37

Continuity equation: the derivation and some very useful applications

33:42

Navier-Stokes equation: a derivation with the detailed understandings on viscous stress tensor

22:27

Euler equation: a derivation with the detailed explanations

22:21

Euler equation: a derivation with detailed explanations (please watch the new corrected version )

01:58

Strong winds and large waves: good for kite surfing

29:17

What is the Eulerian representation for fluid dynamics?

02:33

Large wind-generated waves in the coast of Ireland (3)

02:00

Large wind-generated waves in the coast of Ireland (2)

01:41

Large wind-generated waves in the coast of Ireland (1)

28:39

What is the Lagrangian representation for solid and fluid motions?

26:06

How easy we can calculate the atmospheric pressure?

31:33

Have we understood correctly the static pressure?